CP133E-64-S3 Yokogawa DCS FCS Controller Datasheet & Technical Manual

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Yokogawa CP133E-64-S3 CENTUM CS 3000 DCS Processor Module Configured for high-speed data acquisition and deterministic process control in CENTUM CS...

SKU: CP133E-64 S3

Manufacturer: Yokogawa
Product No.: CP133E-64 S3
Product Type: Yokogawa CENTUM Series
Product Origin: Janpan
Payment:T/T, Western Union
Weight: 450g
Shipping port: Xiamen
Warranty: 12 months

Description Reviews

Yokogawa CP133E-64-S3 CENTUM CS 3000 DCS Processor Module

Configured for high-speed data acquisition and deterministic process control in CENTUM CS and CENTUM CS 3000 Distributed Control Systems, the Yokogawa CP133E-64-S3 (CP133E-64-S3 Processor Controller Module) provides direct physical/electrical execution. Operating as the primary intelligence layer within the Field Control Station (FCS), this hardware component runs regulatory control strategies and multi-channel sequence logic. The module integrates a 32-bit RISC architecture with localized instruction and data memory arrays to process physical I/O point data packets directly across redundant system fieldbus networks.

Hardware Specifications

Parameter	Specification
Model	CP133E-64-S3
Brand	Yokogawa Electric Corporation
Origin	Japan
Weight	0.45 kg (0.99 lbs)
Dimensions	66 mm x 49 mm x 125 mm
Operating Temp	-10 to +55 deg C (Ambient)
Power Consumption	24 V DC (Standard backplane) / 220 V AC (Nest dependent)
Processor Architecture	32-bit high-speed RISC CPU
Memory Capacity	64K Words (Standard instruction/data RAM)
I/O Point Capacity	Up to 256 physical I/O points per node
High-Speed Output	Frequency support up to 30 kHz
System Bus Interface	V-net / Vnet/IP redundant bus
Communication Interfaces	RS-232, RS-422, RS-485
Supported Protocols	Modbus RTU/TCP, Profibus-DP, DeviceNet, Yokogawa V-net
Isolation Protection	Built-in EMI/RFI shielding (500 VAC withstand voltage)
Storage Temperature	-40 to +85 deg C

High-Speed Network & Protocol Synchronization

The CP133E-64-S3 infrastructure is built to synchronize multi-protocol data traffic across the deterministic Yokogawa V-net bus system without packet jitter or transmission degradation. The hardware's serial and Ethernet communication blocks handle Modbus RTU/TCP and Profibus-DP master data scanning, maintaining the physical layer mapping needed for accurate loop monitoring. By establishing high-speed output tracking up to 30 kHz alongside 500 VAC structural isolation, the module keeps its internal computing registers separate from field-side voltage transients, preventing signal corruption in the 4-20 mA HART loop protocol passes running through adjacent I/O nodes.

Frequently Asked Questions

Q: How does the CP133E-64-S3 handle hot-swap actions within a redundant FCS configuration?

A: The module supports live hot-swap installation. When placed into a dual-redundant slot arrangement, the active processor mirrors its execution registers to the backup module over the backplane bus, allowing a seamless master-to-slave transition if a hardware failure occurs.

Q: What are the specific power constraints of the "S3" hardware variant style?

A: The S3 designation defines a specialized internal power management stage. It allows direct execution on standard 24 VDC backplane power buses or 220 VAC carrier nests, adapting its internal step-down regulation to match the structural voltage parameters of the chassis line.

Q: Is the 64K words memory allocation expandable via local solid-state hardware upgrades?

A: No. The 64K words instruction and data RAM allocation is permanently fixed within the internal hardware architecture of the processor board to maintain deterministic scan cycles. Memory allocation must be optimized entirely within the system configuration software.

Field Installation Guidelines

Chassis Alignment and Ventilation: Insert the module into its assigned slot on the FCS carrier baseplate. Secure the locking levers completely to ensure solid contact with the backplane connectors, and maintain a 50 mm clearance zone above and below the nest for convective cooling.
Shield Grounding Constraints: Connect all serial communication cable shields (RS-232, RS-422, RS-485) to the functional instrument ground bar inside the system cabinet. To prevent circulating ground loop currents, do not connect the shield at both ends of the cable run.
Bus Cable Minimum Bend Radius: Route V-net and Vnet/IP communication lines through separate wire trays away from power leads. Maintain a structural bend radius of at least 10 times the outside diameter of the cable to protect the high-speed signal path from attenuation.
Cabinet Ingress Protection: Install the processor module inside an IP54 or NEMA Type 12 rated enclosure to safeguard the internal RISC CPU and memory board traces against conductive dust, moisture accumulation, and ambient airborne contaminants.

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